Mount for equipment for conveying persons

ABSTRACT

A mount having an insulation body is arranged between a bearer and an elevator drive, wherein a fastening connects the elevator drive with the bearer. Plugs are embedded in the insulation body, wherein the plugs distributed in a grid-like manner in rows and columns over the insulation body. The plugs, which can be broken out, enable a uniform spring deflection in the case of different loading. The insulation body required for the respective application can be produced by breaking out the appropriate number of plugs.

BACKGROUND OF THE INVENTION

The present invention relates to a mount for equipment for conveying persons, wherein an insulation body carries vibrationally loaded parts of the equipment for conveying persons and insulates them in terms of vibration relative to a support.

A resilient mount for the frame of an elevator drive is known from the published German specification DE 24 41 882, which consists of a rubber body provided with horizontal passages and which is arranged by a bearing surface on the support and by the opposite bearing surface below the supported frame and is connected by means of a clamping connection. Passages, by means of which a greater spring travel can be produced in the case of sufficient horizontal stability, are provided in the rubber body.

A disadvantage of this known equipment resides in the fact that the rubber body is designed merely for a specific loading.

SUMMARY OF THE INVENTION

The present invention meets the object of avoiding the disadvantages of the known equipment and of creating a mount, which is adaptable to the loading, with an insulation body.

The advantages achieved by the present invention are essentially that the spring travel or the spring deflection of the mount or the insulation body is settable in accordance with the respective loading. Elevator drives with different weight and for different loads or cable fixing points for different loads or escalators or moving walkways of different size or the drive engines thereof can be insulated in terms of vibration relative to the support by the mount according to the present invention or by the insulation body, wherein insulation bodies of the same Shore hardness are usable. Plugs which are embedded in the insulation body and can be broken out enable a uniform spring deflection in the case of different loading. The insulation body required for the respective application can be produced from the insulation body according to the present invention in that an appropriate number of plugs is broken out. One insulation body with a Shore hardness suffices for different loadings, wherein the required spring deflection is settable by means of the plugs able to be broken out. Production costs can thereby be significantly reduced by large batch numbers. Moreover, the logistics (stock-keeping, stock management, distribution, assembly, etc.) are simplified.

DESCRIPTION OF THE DRAWINGS

The above, as well as other, advantages of the present invention will become readily apparent to those skilled in the art from the following detailed description of a preferred embodiment when considered in the light of the accompanying drawings in which:

FIG. 1 is a schematic elevation view of an elevator drive engine with a mount according to the present invention;

FIG. 2 is an enlarged fragmentary view showing details of the mount of FIG. 1;

FIG. 3 is a plan view of an insulation body, according to the present invention, of the mount shown in FIG. 1;

FIG. 4 is an enlarged detail of area “A” in FIG. 3 of the insulation body with embedded plugs;

FIG. 5 is a partial cross-sectional view of the insulation body and plug shown in FIG. 4 in an unloaded state;

FIG. 6 is a view similar to FIG. 5 of the insulation body and plug in a loaded state;

FIG. 7 is a view similar to FIG. 4 of the insulation body with broken-out plugs;

FIG. 8 is an enlarged detail of area “A” in FIG. 7 of the insulation body with broken-out plugs;

FIG. 9 is a partial cross-sectional view of the insulation body without a plug shown in FIG. 8 in an unloaded state,

FIG. 10 is a view similar to FIG. 8 of the insulation body without a plug in a loaded state; and

FIG. 11 is a diagram with the spring deflection as a function of loading of the insulation body according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT

FIG. 1 shows an elevator drive 20 with a drive pulley 21 for driving an elevator car (not shown) movable in an elevator shaft. A mount 22 insulates the elevator drive 20, which accepts vertical loads, in terms of vibration relative to a bearer or support 23, wherein the elevator drive 20 is connected with the bearer 23 by means of at least one fastening 24.

The mount 22 can also be used for cable fixing points receiving vertical loads or for parts, which receive vertical loads, of escalators or moving walkways, such as, for example, the drive engines thereof.

FIG. 2 shows details of the mount 22, consisting of at least one insulation body 1 according to the present invention and at least one of the fastening 24, wherein the insulation body 1 is arranged between the bearer 23 and the elevator drive 20 and the fastening 24 connects the elevator drive 20 with the bearer 23. The fastening 24 consists of a screw or bolt 25 which penetrates a spacer sleeve 26 and is screwed at one end to the elevator drive 20. At the other end the screw 25 has, for example, a hexagon head 27 against which a washer 28 rests, wherein the spacer sleeve 26 is clamped between the washer 28 and the elevator drive 20. A spring element 29 which extends into a recess 30 of the bearer 23 and can give with the spring deflection of the insulation body 1 produced by the loading is provided between the washer 28 and the bearer 23. Details of the insulation body 1 under load are shown in FIG. 10.

FIG. 3 shows the insulation body 1, according to the present invention, of the mount 22 for items of equipment for conveying persons (elevator drives with different weight or cable fixing points for different loads or escalators or moving walkways of different size), wherein the insulation body 1 carries vibrationally loaded parts, which accept vertical loads, of the equipment for conveying persons and insulates them in terms of vibration relative to a support, for example the bearer 23.

The insulation body 1 is, for example, plate-shaped and has the dimensions 340×256×20 millimeters. Other body shapes and dimensions are also possible. Spring bodies, for example plugs 2, are embedded in the insulation body 1, wherein the plugs 2 are arranged to be distributed in a grid-like manner in rows and columns over the insulation body 1. Other arrangements, for example spiral or circular arrangements, are also possible. The plugs 2 usually consist of the same resilient material (for example natural rubber with high elasticity and high mechanical properties) as the insulation body 1. Different materials for the plugs 2 and the insulation body 1 are also conceivable. Instead of the plugs 2 being circular in cross-section it is also possible to provide square, triangular or spherical spring bodies or spring bodies of other shapes.

FIG. 4 shows a detail area “A” of the insulation body 1 with the plug 2 according to FIG. 3. In FIG. 4, the plug 2 is shown circularly round. The plug 2 can also have different body shapes, such as, for example, a cylinder with oval plan. The plug 2 is connected with the insulation body 1 by means of webs 3, wherein the webs 3 extend, for example, over the entire height of the insulation body 1 as shown in FIG. 9. The webs 3 can have, for example, a width 4 of one millimeter. A diameter 5 of the plug 2 can be, for example, thirty millimeters, wherein a diameter 6 of an opening 7 for reception of the plug 2 is, for example, thirty-two millimeters.

FIG. 5 shows a section through the insulation body 1 and the plug 2 in an unloaded state. The insulation element 1 and the plug 2 have a height 8 of, for example, twenty millimeters. A play 7.2 between the plug 2 and the opening 7 of, for example, one millimeter is clearly apparent.

FIG. 6 shows a section through the insulation body 1 and the plug 2 in a loaded state. Due to the loading the insulation element 1 and the plug 2 have been slightly compressed and have a height 8 of, for example, nineteen millimeters. The plug 2 has expanded radially to completely fill the opening 7.

FIG. 7 shows the insulation body 1 with broken-out ones of the plugs 2. Circles with thick lines represent the intact plugs 2. Circles with thin lines represent the openings 7 either without one of the plugs 2 originally or with the plug 2 broken-out.

FIG. 8 shows a detail area “A” of the insulation body 1 with the broken-out plug 2 according to FIG. 7. Of the cut-through web 3, a remaining web protrusion 3.1 at the insulation body 1 is visible.

FIG. 9 shows a section B-B in FIG. 8, wherein the insulation body 1 with the broken-out plug 2 is in an unloaded state. The height 8 of the insulation body 1 is, as mentioned above, for example twenty millimeters.

FIG. 10 shows the section B-B of FIG. 8, wherein the insulation body 1 with the broken-out plug 2 is in a loaded state. Due to the loading the insulation element 1 has been slightly compressed and has, as explained above, a height 8 of, for example, nineteen millimeters. The opening wall 7.1 has been slightly bulged by the loading.

FIG. 11 shows a diagram with the spring travel “s” as a function of the loading or the force “F” on the insulation body 1. Curve O shows the characteristic of the insulation body 1 with the plug 2 in place and curve M shows the characteristic of the insulation body 1 with the plug 2 broken-out. In the case of a specific loading of the insulation body 1, or force F₁ on the insulation body 1, there results at the curve O a spring deflection travel s_(o) and in the case of the curve M a spring deflection travel s_(m), wherein s_(o)<s_(m). The play 7.2 between the plug 2 and opening 7 is not considered, wherein the curves O, M are coincident within the play 7.2 and thereafter rise differently with a slight kink, approximately as shown.

In accordance with the provisions of the patent statutes, the present invention has been described in what is considered to represent its preferred embodiment. However, it should be noted that the invention can be practiced otherwise than as specifically illustrated and described without departing from its spirit or scope. 

1. A mount for equipment for conveying persons, wherein an insulation body carries vibrationally loaded parts, which accept vertical loads, of the conveying equipment for persons and insulates the parts in terms of vibration relative to a support, comprising: an insulation body formed of a spring material and having at least one opening formed therein; and a spring body positioned in said opening and being removably attached to said insulation body whereby a spring travel characteristic of said insulation body is settable according to a loading by the vibrationally loaded parts by selective removal of said spring body from said opening.
 2. The mount according to claim 1 including a plurality of said at least one opening arranged in grid-like manner over said insulation body, each said opening having an associated one of said spring body positioned therein.
 3. The mount according to claim 1 wherein said spring body can be broken out of said opening.
 4. The mount according to claim 1 wherein said spring body is a plug connected with said insulation body by at least one web.
 5. The mount according to claim 4 wherein said plug is separable from said insulation body at said at least one web.
 6. A method of insulating vibrationally loaded parts, which parts accept vertical loads, of equipment for conveying persons, wherein an insulation body carries the vibrationally loaded part and insulates the part in terms of vibration relative to a support, comprising the steps of: a. forming an insulation body with a spring characteristic and a plurality of openings formed therein and a spring body releasably attached in each of the openings; b. selectively removing at least one of the spring bodies to set a spring deflection of the insulation body in accordance with a loading by the part; and c. positioning the insulation body between the loaded part and the support.
 7. A mount for equipment for conveying persons, wherein an insulation body carries vibrationally loaded parts, which accept vertical loads, of the conveying equipment for persons and insulates the parts in terms of vibration relative to a support, comprising: an insulation body formed of a spring material and having a plurality of openings formed therein; and a plurality of spring bodies each positioned in an associated one of said openings and being removably attached to said insulation body whereby a spring travel characteristic of said insulation body is settable according to a loading by the vibrationally loaded parts by selective removal of at least one of said spring bodies from said associated opening. 